- Multidisciplinary innovation platforms to develop technology-driven businesses
- Embedded systems design, interaction and experienceM.
- Actuarial, financial engineering, and risk management modelling.
- Operations research optimization, statistical modelling and inferencing
- Agile software development, user experience design and testing
- Computer-aided design and engineering, component and product testing, rapid prototyping
- Energy conversion and management system design
- Healthy food innovation, comprehensive food analysis, and advanced food processing
- System, data, process, and product simulation using a wide variety of software, i.e. ANSYS, Aspen Plus, COMSOL Multiphysics, Circuit Design Suite (Multisim + Ultiboard), LabVIEW, MATLAB, SAS, SolidWorks
Specific – Measureable – Attainable – Relevant – Timely
STEM (Science, Technology, Engineering and Mathematics) Prasetiya Mulya offers an answer to higher education reform through combination of business and technological innovation.
This is implemented as the discovery-based learning approach used in our teaching and research activities. Taking advantage of any disruptive technologies, we develop prototypes through a cycle comprising of virtual laboratory, experimentation, and prototyping, and promote the prototypes as potential solution to real world problems through creation of new business ventures.
STEM Innovation Studio
- Virtual Laboratory
- CAD Engineering Studio
- Animation Engineering Studio
- Product Showcase Areas
- Discussion Rooms
Smart Systems and Interactions
1.Physics, Circuits, and Electronics Laboratory
Fundamental science, analogue/digital circuits and electronics.
2.Wireless and Embedded Systems Laboratory
Embedded systems design (wired/wireless), signal processing, and sensor interfacing.
3.Communications and Networks Laboratory
Data communications and computer networks.
4.Ambient Intelligence and Interactions Laboratory
Virtual/augmented reality (VR/AR) and natural interactions.
5.Research and Innovation Laboratory
Research, prototype, and innovation in computer systems engineering.
Smart Data Solutions
1.Big Data Analysis Laboratory
Smart analysis prior to big data processing
2.Business Intelligence Laboratory
Smart data analysis for informed business decisions
3.Quantitative Finance Laboratory
Building smart systems for trading and investing
4.Actuarial Science Laboratory
Smart ways to assess and manage risk
5.Optimization Modelling Laboratory
Smart strategies to optimize business outputs
Smart Software Solutions
1.Advanced Programming and Data Engineering Laboratory
2.Human Computer Interactions Laboratory
3.Web and Mobile Applications Laboratory
4.High Performance Computing Laboratory
Smart Healthy Food
1.In-silico Design Laboratory
NPD simulation, food processing and traceability simulation
2.Advanced Food Research Laboratory
Functional food research, food safety intervention technology, food bioactive constituent research
3.Food Processing Laboratory
Food scale-up, commercialization, co-packing (customization) and mass production
4.Food Microbiology Laboratory (BSL-2)
Microbiological identification and testing, food fermentation, food safety validation
5.Food Analysis Laboratory
Nutrition fact analysis, food quality testing, halal food authentication
6.Food Sensory Laboratory
Food sensory evaluation, consumer testing and trained laboratory panel.
Smart Energy Systems
1.Energy Simulation Laboratory
Computational thermofluids, multiphysics simulation, chemical process simulation
2.Material Processing Laboratory
Hydrothermal process, gasification, biodigestion, esterification, heat treatment process, thin film deposition
3.Material Characterization Laboratory
Thermal analysis, calorific value evaluation, chemical compound identification, optical absorption measurement, microstructure analysis, electrochemical evaluation
4.Fluid Mechanics Laboratory
Fluid properties and flow testing
5.Energy Conversion Laboratory
Solar energy conversion, hydro/wind turbine testing, rankine cycle, diesel power generation
6.Electric Power System Laboratory
Electronic power system, instrumentation and control system.
Smart Product Design Technology
1.Computer-Aided Design and Engineering (CAD – CAE) Studio
Building product 3D model and simulating product engineering characteristics.
2.High Performance Computing Center
Empowering CAD & CAE simulations using a 320-core computer cluster with a peak performance of around 3.8 TFLOPS.
3.Material Testing Laboratory
Testing the static strength of materials used on products, i.e. tensile, compression, bending, and adhesive, as well as fatigue, drop, and impact strength.
Subtractive metal machining, welding, cutting, drilling, woodworking, spraying and coloring, product assembly.
Building prototypes using Fused Deposition Modeling (FDM) & Stereolithography 3D printers and product reconstruction using 3D scanners.
6.Mechatronics and Robotics Laboratory
Building and testing electromechanical components or systems for product prototypes.
7.Ergonomics and Product Testing Laboratory
Evaluating product usability, effectiveness, user performance, comfort and stress level.